Description
Objective:
This program has two objectives. The first objective is to create a procedure that will take plaintext
and an encryption key, use the Vigenère cipher, and encrypt the plaintext. The second objective is to
create a procedure that will take cypher-text, an encryption key, use the Vigenère cipher, and
decrypt the cypher-text.
Assume that all characters will be uppercase letters, no spaces, symbols, etc.
All “high level” directives are not allowed on this homework. (e.g. .IF .ENDIF .REPEAT, etc)
Design:
Create a BYTE array with the label ‘input’. This array may be of any length between 2 and 100. In the
case of encryption ‘input’ will hold the plaintext and in the case of decryption ‘input’ will hold
cypher-text.
Create a BYTE array with the label ‘key’. This array will have length between 1 and (LENGHTOF
input -1). Meaning the lower bound for ‘key’ is one character and the upper bound is one less than
the number of characters in ‘input’.
Create a BYTE variable named “options”. This variable will be used to determine which procedures
should be executed. If ‘options’ contain the value 1 it means the program should execute encryption
procedure. If ‘options’ contain the value 0 (or any other value than 1) the program should execute
decryption procedure.
Create a BYTE array with the label ‘output’. This array will have a dynamic length equal to
LENGTHOF input. When executing the program using encryption, the variable ‘output’ will hold the
cypher-text and in the case of decryption, ‘output’ will hold plaintext.
You may create any other values you deem necessary.
You must have three procedures for this homework. The main procedure, a procedure to handle
encryption, and another to handle the decryption. You may create other procedures if you wish.
Example of encryption / decryption:
For more information check the Wiki link: (https://en.wikipedia.org/wiki/ Vigenère_cipher)
The example below will use the plaintext word MEMORY and the key BAD.
First you “line up” your plaintext word with your key by writing the key directly beneath the
plaintext word. Continue to repeat the key under each plaintext character:
MEMORY
BADBAD
In the above example MEMORY is longer than BAD, therefore, BAD was repeated. Next choose each
character in the plaintext word, starting with the first and encrypt it.
To encrypt a character, you first find the column on the chart corresponding to the character in the
plaintext, e.g. the character M (circled in red). Next, find the row starting with the key character, e.g.
the character B (circled in red). Finally, find where the plaintext column and the key row intersect,
e.g. the character N (circled in red). Continue this for each character.
MEMORY
BADBAD
N
MEMORY
BADBAD
NE
MEMORY
BADBAD
NEP
Continue until all characters have been encrypted:
Input = MEMORY (plaintext)
Key = BADBAD (key)
output= NEPPRB (cypher-text)
Decrypting is the opposite of encrypting. To decrypt NEPPRB first write the key under the cyphertext. Then find the row starting with the key character. Next, move across that row until you find the
cypher-text character. The cypher-text character’s column is the plaintext column.
NEPPRB
BADBAD
M
NEPPRB
BADBAD
ME
NEPPRB
BADBAD
MEM
Continue until the cypher-text has been decrypted:
Input = NEPPRB
Key = BADBAD
Output = MEMORY
(80 points): Read the comments in the template file “project5_template.asm” and finish (1) – (8)
(15 points) A screenshot of the result after you compile and run program, correctly demonstrate the
decryption result of the input “JPUESZSBAPANNHTXRTLBVLL”. The screenshot file should be
named as “Firstname_Lastname.png” or “Firstname_Lastname.jpg” or any other valid picture format
suffix.
To take a screenshot, right-click on output, select Add Watch.
Change the Name of output into &output,30. The result should appear in the value column.